Project Details
Description
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
An experimental demonstrator of a coherence scrambler will be realized, based on a PIC module, with a 16-emitter phased array, with >100 MHz bandwidth phase modulation per emitter, and operating over the 200nm to 2µm optical bandwidth. It will be realized in an Al2O3-on-silica PIC technology, using AlN phase modulators or all-optical modulation, driven by an indium phosphide control PIC.
Status | Active |
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Effective start/end date | 1/01/20 → 5/02/26 |
Topsector
- TKI-HTSM
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